CN100516748C - Heat exchanger - Google Patents

Abstract

A heat exchanger for the heat exchange between a first fluid and a second fluid, which achieves an unusual strength comprises a plurality of casings (2), of substantially flattened shape and of predetermined width (L), arranged in a pile (2a), with an air space (3) defined between adjacent casings in the pile, and each formed from two half-shells (6) welded along a peripheral strip (6a), said casings (2) being in fluid communication with each other through respective holes (7) opening into said air space (3), and at least one spacer (8), substantially of the sleeve type, in said air space (3), made integral at the top end with said adjacent casings around the respective holes (7) opening into said air space (3).

Description

Heat exchanger

Technical field

By the most general aspect, the heat exchanger that the present invention relates to be used between first and second fluids, carrying out heat exchange.

The present invention especially, but not only relate to a class is used for carrying out heat exchange between pressure fluid heat exchanger, this class heat exchanger comprises a plurality of housings, these housings have basically flat pattern and have preset width, with stacked arrangement, be provided with air gap between the adjacent housings of this lamination, each housing is become by two and half hull shapes along the welding of peripheral band, these housings through leading to described air gap respective apertures and circulation mutually.

Background technology

The heat exchanger that this class that comprises a plurality of housings or flat tube is used for heat exchange between two kinds of fluids is known.

Each housing is become by two and half hull shapes, and the corresponding positions on half shell is equipped with corresponding perforate, and in these positions, adjacent housing connects by concetrated pipe (collector).

In this configuration, each has determined an air gap to adjacent housings, transport first liquid stream by this air gap, and the second liquid stream of different temperatures passes a plurality of housings.

By this way, these liquid streams carry out heat exchange.By in cavity and at enclosure interior assembling little corrugated plating or turbulator, making the motion of liquid stream be the high turbulence state respectively, can make heat exchange become more effective usually.

According to prior art, the above-mentioned articulation set pipe between adjacent housings is to be connected by the interface with these half shells and by plastic deformation pipe fitting of exerting pressure around the corresponding tapered edge, these tapered edges can be seen by the perforate on the housing.

Though the heat exchanger of making like this is favourable, but still exists defective, main defective is that their mechanical resistance is low, and this has damaged their application, especially under the situation that the heat exchange of liquid stream is under high pressure carried out.

This low mechanical resistance between adjacent housings the junction and be significantly at half shell place, this is that plastic deformation is not guaranteed sufficient sealing because in described junction, and at half shell place, the available heat exchange between the liquid stream must be with little thickness realization.

Can draw thus, carry out if heat exchange is at least a liquid stream between the liquid stream of high pressure, the heat exchanger of Zhi Zuoing can not adopt like this, in any case perhaps all have very little industrial value.High pressure described here is meant the force value that is higher than the 10-13 crust.

Prior art US 4,379, and 486 disclose a kind of heat exchanger of the above-mentioned type, this heat exchanger have be provided with one or more openings and on its side, comprise outstanding concetrated pipe (4a, 4b).

File DE 71 15 268U disclose a kind of heat exchanger, and wherein, housing (21) is fixed between the final element (29,36) by draw-gear (47), and wherein concetrated pipe (27) comprises the opening of prolongation.

Summary of the invention

Technical problem to be solved by this invention is that design one class is used for the heat exchanger that carries out heat exchange between the first fluid and second fluid, this class heat exchanger comprises a plurality of housings, these housings are essentially flat pattern and have preset width, with stacked arrangement, between the adjacent housings of this lamination, be provided with air gap, each housing is become by two and half hull shapes along the welding of peripheral band, wherein above-mentioned housing through leading to described air gap respective apertures and circulation mutually.The 26S Proteasome Structure and Function characteristic of heat exchanger of the present invention is enough to overcome above-mentioned defective, in other words, can guarantee unusual intensity and mechanical resistance.

According to the present invention, the problems referred to above solve by the heat exchanger of the above-mentioned type, described heat exchanger comprises that in above-mentioned air gap at least one is essentially the dividing plate of oversleeve type, and it abuts against the top, and integrates around respective apertures of leading to described air gap and described adjacent housing.

Advantageously, this heat exchanger comprises the irregular structure that is connected with above-mentioned at least one dividing plate, and it extends in air gap, thus fixing described half shell.

Preferably, above-mentioned irregular structure is the radial spoke that radially extends from described at least one dividing plate.

Advantageously, above-mentioned radial spoke with angle same basically at interval.

Preferably, above-mentioned radial spoke and described dividing plate are integrally formed, and more preferably, radial spoke and dividing plate are extruded profiles.

Advantageously, above-mentioned extruded profile is made by the metal material that is selected from aluminium, aluminium alloy, copper, copper alloy and the metalloid material.

Reading the characteristic that following detailed description can more clearly understand heat exchanger of the present invention in conjunction with the accompanying drawings has a few with other.Described accompanying drawing only is used to illustrate, and is not construed as limiting.

Description of drawings

In these accompanying drawings:

The I-I along the line that Fig. 1 shows according to heat exchanger of the present invention cuts open the schematic front section view of getting;

Fig. 2 shows the plane of the heat exchanger of the Fig. 1 that overlooks according to arrow II;

Fig. 3 shows the enlarged drawing of a thin portion of the heat exchanger of Fig. 1;

Fig. 4 shows the cutaway view of a thin portion that line IV-IV according to Fig. 3 cuts open the heat exchanger of the Fig. 1 that gets;

Fig. 5 shows the three-dimensional part exploded view of a part of the heat exchanger of Fig. 1;

Fig. 6 shows the part corresponding to Fig. 5 according to the heat exchanger of a modification of the present invention;

Fig. 7 shows the thin portion corresponding to Fig. 5 part according to another modification of the present invention;

Fig. 8 shows the thin portion corresponding to Fig. 4 according to another modification of the present invention.

The specific embodiment

With reference to above-mentioned accompanying drawing, the heat exchanger that is used for heat exchange between first fluid (for example oil) and second fluid (for example air) according to the present invention is represented with 1 generally.

Heat exchanger 1 comprises that mainly shape is flat substantially, concern a plurality of housings 2 that link together by lamination 2a with preset distance, is provided with corresponding lacuna 3 between housing.

The housing 2 of preset width L is clipped between first panel 4 and second panel 5 by known way, and second panel is provided with joint 5a, for example is used for passing through for above-mentioned first fluid.

In an embodiment, described heat exchanger has 1 " (1 inch, joint 5a 2.54cm).

Each housing 2 is formed by two and half shells 6 along peripheral band 6a welding, and described each half shell 6 is provided with corresponding aperture 7 in the relevant position.

It should be noted that above-mentioned peripheral band 6a has the outer rim 6b that comprises deburring (trim) 6c elbow bend (bent square), and half shell 6 uses 0.1-0.4mm, the aluminium sheet of the little thickness of preferred 0.3mm is made.

These respective apertures 7 of arranging in lamination 2a circulate above-mentioned housing 2 mutually.

In these housings 2, above-mentioned first liquid stream is flowed, and second liquid stream flow in above-mentioned lacuna 3, all by known mode itself.

According to first feature of the present invention, heat exchanger 1 comprises in each of described lacuna 3 and is the dividing plate 8 of oversleeve type substantially, it abuts against the top, and integrates with above-mentioned adjacent housing around each of the respective apertures 7 of half shell 6, is implemented in the firm mechanical connection between the adjacent housings.

For example constituted the concetrated pipe that passes through of above-mentioned first fluid at corresponding 7 places, aperture, with the internal communication of housing 2 by this dividing plate 8 of brazing or welding and 2 integration of described housing.

According to second feature of the present invention, heat exchanger 1 comprises the irregular structure 9 that is connected with each dividing plate 8, and it extends in each air gap 3, constitutes the retaining element of half shell 6.

With reference to the example of Figure 4 and 5, can notice that specifically these irregular structures are the form of radial spoke 9, stretch out to the outer radial of described dividing plate 8, and on this dividing plate 8 with angle same basically at interval.

Advantageously, according to another feature of the present invention, this radial spoke 9 of the outside that extends to dividing plate 8 of predetermined number (in example, number equals 7 spokes, represents with 9a) extends to above-mentioned peripheral band 6a.

Especially, the radial spoke 9a of this predetermined number extends to and rests on the above-mentioned deburring 6c elbow bend.

Also advantageously, the residue radial spoke 9 of identical dividing plate 8 is (in example, three spokes representing with 9b) shear (shear) according to the cross section of representing with T, this cross section has constituted generally the reference support face with 11 corrugated platings of representing, described corrugated plating is arranged in each lacuna 3, and those skilled in the art are referred to as " turbulator ".

About this point, should be noted that also second corrugated plating and turbulator 11a are arranged on the inside of each housing 2.

The purpose of above-mentioned corrugated plating 11,11a is to improve the heat exchanger effectiveness of heat exchanger 1, utilizes their corrugated surface to strengthen the turbulent flow of the liquid stream that is used for heat exchange.

Preferably, above-mentioned radial spoke 9 is integrally formed with the dividing plate 8 that is stretched out by them, and more preferably, radial spoke and dividing plate are extruded profiles, by the metal material preparation that is selected from aluminium, copper, aluminium alloy, copper alloy and the metalloid material.

Should be noted that the one-tenth-value thickness 1/10 of the thickness of dividing plate 8 and radial spoke 9 is 2-4mm, preferred 3.5mm.

Preferably, each respective apertures 7 of above-mentioned each half shell 6 is provided with centering edge 12, stretches out from half shell 6 on the direction of air gap 3, and dividing plate 8 is used to harmonize.

Be its unusual intensity according to the major advantage of heat exchanger of the present invention.

Really, because the dividing plate that welds and be made into integration on the top of housing, for the housing lamination itself provides firm especially structure.

Like this, between adjacent housing, realize firm mechanical connection, formed sealing, can tolerate strong stress.

Especially, according to the easiest heat exchanger part of being exploded of prior art in heat exchanger according to the present invention by being reinforced with the integrally formed dividing plate of housing with by the radial spoke that stretches out from each dividing plate, described radial spoke has constituted the retaining element of each half shell.

Like this, heat exchanger according to the present invention is particularly suitable for the heat exchange between pressurized fluid stream, also is suitable for up to 35 crust or higher pressure.

In addition, the mechanical resistance of heat exchanger is modified by the radial spoke of dividing plate, and this radial spoke has constituted the support component that is arranged on each corrugated plating in the lacuna.

Like this, corrugated plating is securely fixed in the optimum position by radial spoke, makes the turbulent flow that has strengthened the liquid stream that passes lacuna admirably especially, to have realized best heat exchange under the high pressure values of this liquid stream.

In other words, because above-mentioned special construction, allow at first liquid stream that enclosure interior is carried and be transported between second liquid stream in the lacuna between the adjacent housings to carry out heat exchange according to heat exchanger according to the present invention, especially and at the most when these liquid streams all are in high pressure values.

Heat exchanger according to the present invention has been realized this unusual intensity, advantageously, relies on half shell that available heat exchanges only needs little thickness, has kept the compact structure of heat exchanger simultaneously.

Because its sealing is better than so far the above-mentioned mechanical connection by the sealing that prior art provided, another advantage that realizes according to heat exchanger of the present invention is that fluid has minimum or insignificant pressure drop during heat exchange.

In addition, should be noted that, the radial spoke (preferably elbow bend) that extends to the deburring of peripheral band provides the effective mechanical resistance that resists accident collision, the similar undesirable destruction that makes heat exchanger not produce indenture and be produced by this collision for heat exchanger according to the present invention.

Now, specifically with reference to the example of figure 6, this Figure illustrates a modification of the present invention.In the figure, structure and operation and thin portion that before embodiment was identical and linkage part are with identical Reference numeral and symbolic representation.

In this modification, heat exchanger comprises dividing plate 8, and its shape is essentially the oversleeve shape, integrates on the top of adjacent housings 2, comprises the radial spoke 90 that stretches out to the inside of dividing plate 8.

The above-mentioned radial spoke 90 that stretches out to dividing plate inside is sheared at its free-end, so that center on the centering outer rim 12 of respective apertures 7.

Specifically with reference to the example of figure 6, should be noted that once more dividing plate 8 comprises the 80a of first with curved profile, and the second portion 80b with square contour, this square contour has constituted the reference planes of turbulator 11.

In this modification, should be noted that, advantageously because pass the fluid of housing, the pressure that acts on dividing plate internally fully by because pass the fluid of lacuna, pressure from external action in dividing plate is offset.

The example of Fig. 7 has been represented another modification according to heat exchanger of the present invention.

In this modification, heat exchanger comprises dividing plate 8, and it has oversleeve shape basically, is provided with the radial spoke of representing with 90a, stretch out to the inside of dividing plate separately, and the radial spoke of representing with 90b, stretch out to the outside of dividing plate.

As can be seen, the above-mentioned radial spoke 90b that stretches out to the outside of dividing plate 8 is the prolongation to the radial spoke 90a of the inside of dividing plate extension.

Importantly, according to reference to another modification shown in the example of figure 8, the perforate 7 on half shell 6 of housing 2 is oval-shaped.

Under the very big situation of the width of heat exchanger, the aperture of horizontal expansion is particularly advantageous, and expectation can tolerate the high flow rate fluid that circulates in half shell of heat exchanger itself.

In order to satisfy concrete requirement, those of ordinary skills can make many transformations to each of four modification of above-mentioned heat exchanger, and all these transformations are all covered by the determined protection scope of the present invention of claims.

Claims (27)

1. a class is used for the heat exchanger that carries out heat exchange between the first fluid and second fluid, such heat exchanger comprises a plurality of housings (2), these housings are essentially flat pattern and have preset width (L), arrange with lamination (2a), between the adjacent housings of this lamination, be provided with air gap (3), each housing is formed by two and half shells (6) along peripheral band (6a) welding, described housing (2) through leading to described air gap (3) respective apertures (7) and mutually circulation, the dividing plate (8) that in described air gap (3), also comprises at least one oversleeve type, described at least one dividing plate (8) is integrated around respective apertures (7) of leading to described air gap (3) and described adjacent housing (2) on the top, it is characterized in that: described heat exchanger comprises by radial spoke (9a, 9b, 90,90a, 90b) the irregular structure of Zu Chenging (9), described radial spoke is connected with described at least one dividing plate (8) and radially extends in described air gap (3), thereby fixes half shell (6).

2. heat exchanger according to claim 1 is characterized in that, described radial spoke (9a, 9b, 90b) stretches out.

3. heat exchanger according to claim 1 is characterized in that, and described radial spoke (90,90a) extend internally.

4. heat exchanger according to claim 1 is characterized in that, described radial spoke is outward extending radial spoke (90b) and the radial spoke (90a) that extends internally.

5. heat exchanger according to claim 4 is characterized in that, described outward extending radial spoke (90b) is the prolongation of the described radial spoke that extends internally (90a).

6. according to claim 2 or 4 described heat exchangers, it is characterized in that the described radial spoke (9a) that extend the outside to described at least one dividing plate (8) of predetermined number extends to described peripheral band (6a) at least.

7. heat exchanger according to claim 6, it is characterized in that, each half shell (6) locates to comprise deburring (6c) elbow bend in the outer rim (6b) of described peripheral band (6a), and the radial spoke (9a) that externally extends of described predetermined number extends to described deburring (6c).

8. according to each the described heat exchanger in aforementioned claim 1-5 and 7, it is characterized in that described radial spoke (9a, 9b, 90,90a, 90b) is integrally formed with described at least one dividing plate (8).

9. heat exchanger according to claim 6 is characterized in that, described radial spoke (9a, 9b, 90,90a, 90b) is integrally formed with described at least one dividing plate (8).

10. according to each the described heat exchanger in aforementioned claim 1-5 and 7, it is characterized in that described at least one dividing plate (8) and described radial spoke (9a, 9b, 90,90a, 90b) are extruded profiles.

11. heat exchanger according to claim 8 is characterized in that, described at least one dividing plate (8) and described radial spoke (9a, 9b, 90,90a, 90b) are extruded profiles.

12. heat exchanger according to claim 9 is characterized in that, described at least one dividing plate (8) and described radial spoke (9a, 9b, 90,90a, 90b) are extruded profiles.

13. heat exchanger according to claim 10 is characterized in that, described extruded profile is by the metal material preparation that is selected from aluminium, aluminium alloy, the copper and copper alloy.

14. heat exchanger according to claim 11 is characterized in that, described extruded profile is by the metal material preparation that is selected from aluminium, aluminium alloy, the copper and copper alloy.

15. heat exchanger according to claim 12 is characterized in that, described extruded profile is by the metal material preparation that is selected from aluminium, aluminium alloy, the copper and copper alloy.

16. heat exchanger according to claim 1 is characterized in that, described radial spoke (9a, 9b, 90,90a, 90b) with angle same at interval.

17. heat exchanger according to claim 1 is characterized in that, the described radial spoke (9b) of predetermined number is sheared according to plane (T), is formed in the reference support face of the corrugated plating (11) that is provided with in the described air gap (3).

18. each the described heat exchanger according in aforementioned claim 1-5 and 7 is characterized in that, at least one of described respective apertures (7) of leading to air gap (3) is provided with centering edge (12), and described at least one dividing plate (8) is used to harmonize.

19. heat exchanger according to claim 15 is characterized in that, at least one of described respective apertures (7) of leading to air gap (3) is provided with centering edge (12), and described at least one dividing plate (8) is used to harmonize.

20. each the described heat exchanger according in aforementioned claim 1-5 and 7 is characterized in that described respective apertures (7) is oval-shaped.

21. heat exchanger according to claim 19 is characterized in that, described respective apertures (7) is oval-shaped.

22. heat exchanger according to claim 20 is characterized in that, described respective apertures (7) is oval-shaped on width (L) direction of described housing (2).

23. heat exchanger according to claim 21 is characterized in that, described respective apertures (7) is oval-shaped on width (L) direction of described housing (2).

24., it is characterized in that described at least one dividing plate (8) has the predetermined thickness of 2-4mm according to each the described heat exchanger in aforementioned claim 1-5 and 7.

25. heat exchanger according to claim 23 is characterized in that described at least one dividing plate (8) has the predetermined thickness of 2-4mm.

26. heat exchanger according to claim 24 is characterized in that described predetermined thickness is 3.5mm.

27. heat exchanger according to claim 25 is characterized in that described predetermined thickness is 3.5mm.

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